Objective To investigate the biological and biomechanical characteristics of acellular porcine aortic valve with dye mediated photo oxidation so that a new and better bioprosthetic valve materials can be obtained. Methods Thirty porcine aortic valves were divided into three groups with random number table. Acellular valves (n=10) were stabilized by dye mediated photo oxidation in dye mediated photo oxidation group; acellular valves (n=10) were stabilized by glutaraldehyde in glutaraldehyde group; and acellular valves (n=10) were acellularized only in acellular valves group. Thickness, appearance, histology, water content, shrinkage temperature, breaking strength and soluble protein level of acellular porcine aortic in three groups were tested respectively. Results There were light blue, soft, flexible and unshrinking valves in dye mediated photo oxidation group. Compared to valves in glutaraldehyde group, valves in dye mediated photo oxidation group had lighter thickness(0.26±0.09mm vs. 0.38±0.08mm,Plt;0.05), more water content(86.30%±4.03% vs. 71.10%±3.23%,Plt;0.05), and lower shrinkage temperature (76.30±0.70℃ vs. 87.70±0.30℃,Plt;0.05); while these indexes had no statistically significant differences compared to those in acellular valves group. At the same time, compared to valves in acellular valves group, valves in dye mediated photo oxidation group had more breaking strength(17.33±2.65 mPa vs. 9.11±0.95 mPa,Plt;0.05) and lower soluble protein level(0.039%±0.013% vs. 0.107%±0.024%,Plt;0.05); while these indexes had no statistically significant differences compared to those in glutaraldehyde group. Conclusion Acellular porcine aortic valve stabilized by dye mediated photo oxidation has nice biological and biomechanical characteristics.
Objective To analyze the medium-and long-term r esults of tricuspid valve replacement(TVR), to summarize the experience in opera tive therapy for tricuspid valve disease. Methods From January 1998 to May 2006, sixty seven patients had undergone TVR. The etiology was rheumatic disease in 25 cases, congenital disease in 37 cases, degenerative disease in 1 case, infective endocarditis in 3 cases, a nd cardiac tumor in 1 case. All operations were performed under general anesthes i a and by cardiopulmonary bypass. Bioprostheses was replaced in 28 patients, whil e mechanical valve was replaced in 39 patients. Associated procedure included mi tral valve replacement in 13 cases, mitral valve replacement and aortic valve replac ement in 12 cases, repair of ventricular septal defect in 1 case, repair of atri al septal defect in 1 case, and radioablation of atrial fibrillation in 3 case s. Results The operative mortality was 11.94% (8/67),among these patients , 6 cases died of serious heart failure,1 case died of ventricular fibrillation, 1 case died of multi organ failure. During follow-up, 1 patient died of biopro thesis dysfunction 1 year after the operation, 1 patient died of cerebral emboli s m 6 years after the operation. Through statistical analysis, it showed that the mortality of TVR in rheumatic tricuspid valve disease was higher than that in co ngenital tricuspid valve disease [5.56%(2/36)vs. 24.00% (6/25); χ2=4.425 , P=0.036]; the mortality in second time operation was higher than that in first time operation [30.00%(3/10)vs. 8.77% (5/57);χ2=3.646,P=0.033 ]; while there was no significant difference in immediate and long-term result s with different choice of bioprosthetic or mechanical valve in TVR (χ2=0.002 , P=0.961). Conclusion Operative an d follow-up mortality is high in the TVR, valve replac ement is the last selection for the treatment of serious tricuspid disease, appr opriate operative technique and perioperative therapy is the key for success o f the operation.
Valve replacement is one of the way to treat valvular heart disease. Valve replacement with bioprostheses, which occurs low rate of bleeding and thromboembolism events, needs no lifelong anticoagulation. However, the life of bioprostheses is limited. Leaflet tear, leaf calcification, and artificial valve infective endocarditis may occur with using a bioprostheses These adverse events appear early to some patients who fail to achieve the expected service life of bioprostheses. This review mainly summarizes factors influencing early valve degeneration(EVD) of bioprostheses to provide suggestion in clinic.
Heart valve replacement is the major surgical treatment of severe valvular diseases. Due to the durability and reoperation-free, mechanical valves are widely used. Bioprosthesis valves became popular recently because of long service life and no demand for lifelong anticoagulation. However, how to choose the appropriate prosthetic heart valves, especially the application of bioprosthesis valves for patients at 55 to 65 years is still a major problem. This review focuses on more effective and scientific basis for rational choice of mechanical and bioprosthesis valve.
ObjectiveTo investigate the influence of mechanical and biological valves on clinical benefits of elderly patients with valvular heart disease.MethodsWe retrospectively analyzed the clinical data of 280 elderly patients with valvular heart disease treated by valve replacement between 2008 and 2014 year. The patients were divided into two groups by tendency score matching including a group A with biological valves and a group B with mechanical valves. Finally, there were 96 patients in each group. There were 43 males and 53 females at age of 64.41±6.52 years in the group A, 44 males and 52 females at age of 64.07±6.20 years in the group B.ResultsThe bleeding rate of skin and mucosa of the group B was significantly higher than that of the group A (P<0.05). There was no statistical difference in mortality within 30 days after operation, all-cause mortality, re-hospitalization rate, re-valve replacement rate, combined atrial flutter/atrial fibrillation ratio, drug use, incidence of cerebral infarction, cerebral hemorrhage, new peripheral vascular embolism and visceral hemorrhage, heart function (NYHA) classification, the cumulative survival rate of all the patients during follow-up (P=0.63), or the cumulative survival rate of the patients with no thrombus/hemorrhage (P=0.75) between the two groups (P>0.05).ConclusionMechanical valve replacement and bioprosthetic valve replacement in the treatment of valvular heart disease in the elderly can achieve similar clinical benefits and both have clinical application value.
Commissural misalignment of biological valve and autologous valve during transcatheter aortic valve replacement may affect the filling of coronary artery, reduce the feasibility of redo-aortic valve intervention and damage the valve function, which will adversely affect long-term prognosis of patients. Some studies have obtained achievement by changing the axial direction of valve and using individualized computer simulation technology to improve the alignment technology. However, there are still many unknown problems about the impact of commissural misalignment on patients, and accurate commissural alignment techniques still need to be further explored. This article systematically expounds the possible impact of commissural misalignment between biological valve and autologous valve in transcatheter aortic valve replacement, possibly effective accurate commissural alignment techniques and related research progress.
ObjectiveTo study the biocompatibility of bioprosthetic heart valve material with a non-glutaraldehyde-based treatment, and to provide the safety data for the clinical application. MethodsAll the tests were conducted according to GB/T16886 standards. The in vitro cytotoxicity was determined by methyl thiazolyl tetrazolium assay. Fifteen guinea pigs were divided into a test group (n=10) and a control group (n=5) in the skin sensitization test. Three New Zealand white rabbits were used in the intradermal reactivity test. Five sites on both sides of the rabbit back were set as test sites and control sites, respectively. In the acute systemic toxicity test, a total of 20 ICR mice were randomly assigned to 4 groups: a test group (polar medium), a control group (polar medium), a test group (non-polar medium) and a control group (non-polar medium), 5 in each group. Forty SD rats were divided into a test group (n=20) and a control group (n=20) in the subchronic systemic toxicity test. ResultsThe viability of the 100% extracts of the bioprosthetic heart valve material with a non-glutaraldehyde-based treatment was 75.2%. The rate of positive reaction was 0.0%. The total intradermal reactivity test score was 0. There was no statistical difference in the body weight between the test group and control group in the acute systemic toxicity test. There was no statistical difference in the body weight, organ weight, organ weight/body weight ratio, blood routine test or blood biochemistry between the test group and control group in the subchronic systemic toxicity test. ConclusionThe bioprosthetic heart valve material with a non-glutaraldehyde-based treatment has satisfying biocompatibility, which conforms to relevant national standards. The material might be a promising material for application in valve replacement.